Forage harvester



Sept. 8, 1953 P. A. w|||sLER 2,651,162

FoRAGE HARVESTER v Filed April 19,- 1949 10 Sheets-Sheet l P. A, wHlsLER FORAGE HARVESTER Sept. 8, 1953 10 Sheets-Sheet 2 Filed April 19, 1949 .www M SePt- 8, 1953 I P. A. wHlsLER 2,651,162

FoRAGE HARVESTER Filed April 19, 1949 10 Sheets-Sheet 5 P. A. WHISLER Sept. 8, 1953 FORAGE HARVESTER 10 Sheets-Sheet 4 Filed April 19, 19.49

Sept. 8, 1953 P.` A. wHlsLER FORAGE HARVESTER Filed April 19, 1949 l 10 Sheet's-Sheef 5 Sept. 8, 1953 'vP. A. wHlsLER 2,651,162

FORAGE HARVESTER Filed April 19, 1949 10 Sheets-Sheet 6 im wcm Sept. 8, 1953 l P. A. wHlsLER 2,651,152

` FORAGE HARVESTER Filed April 19, 1949 y 1o sheefs-sheet 7 @Hom-w19 Sept 8, 1953 I P. A. wHlsLER 2,651,162

FORAGE' HARVESTER Filed April 19, 1949 10 Sheets-Sheet 8 3,5, ,19 im m. www

i@ Tamar/ mom/umg Sept. 8, 1953 P. A. wHlsLL-:R

FORAGE HARVESTER 10 Sheets-Sheert 9 Filed April 19, 1949 P. A. WHISLER Sept. 8, 1953 FoRAGE HARVESTER 10 Sheets-Sheet 10 Filed April 19, 1949 wwN J Aboth types of machines.

Patented Sept. 8, 1953 FOBAGE HARVESTER 'Paul A. Whitler, La Porte, Ind., asslgnor to Allis- Chalmers Manufacturing Company, Milwaukee, Wil.. a corporation o! Delaware Application April 19, 1949, Serial No. 88,380

4 claim. l

This invention relates generally to forage harvesters and is more particularly concerned with and directed toward a design of machine particularly eiective and efliclent in harvesting grasses and legumes or row crops, as desired.

The capacity of a forage harvester, measured in tons per hour, is largely dependent on four factors: (1) Power availability; (2) crop and iield conditions; (3) length of cut, i. e. length of the chopped pieces; and (4) proper machine adjustment, particularly of knives and shear bar. Length of cut and proper machine adjustment are factors which are generally common to and similarly aiect the operation of all types of machines, whereas power availability is primarily a matter of initial selection since a harvester to be purchased may be of the type operated by excess power developed by the propelling tractor or of the type operated by a separate power unit mounted on the harvester. More power is usually available in the type of machine incorporating a separate power unit and therefore while the proper adjustment of such a machine is less critical in order to obtain fairly satisfactory results. proper adjustment is essential to obtaining efficient operation with And although variations in crop and fleld conditions may be considered as similarly affecting both types of machines, a machine incorporating a separate power unit is less sensitive to such variations since its operation is not in any manner affected by the power requirements of the propelling tractor. However, a machine of the last mentioned type entails a considerable increase in initial cost and an ineihcient utilization of available power, the later being attributable to the fact that there is only a partial utilization of available power during most harvesting operations and to the further fact that the separate power unit necessarily remains idle during a. large portion of each year.

A forage harvester designed to be operated by power derived from the' propelling tractor should minimize power requirements for satisfactory operation under all crop and eld conditions normally experienced to thereby render the harvester practical for use with the greatest possible number of the different sizes and makesl of available tractors. And in this connection, it has been found that power requirements can be materially reduced by employing knives shaped to function both as chopping and conveying elements (see U. S. Patent, C. E. Frudden. No. 2,450,277, :granted'september 2s, 194s,

2 Forage. Cutting Apparatus Including a Rotor Having Pocketed Blades), and by employing chopping knives having an effective cutting length more nearly equal to the actual length o1' the swath cut in harvesting grasses and legurnes than it is to the length of a cutter bar suitable for use in harvesting row crops, such as corn. In the known designs of ensilage harvesters, the length of the chopping knives heretofore employed have been made to conform with row crop requirements and in adapting such machines to harvest grasses and legumes, it is common practice to employ a fairly wide cutter bar and to laterally converge and convey the cut grasses and legumes to and through a. narrow throat section immediately preceding the feeding devices and chopping knives. And as a result, the speed of these feeding devices and f chopping knives must be relatively high in order to prevent a plugging accumulation of grasses and legumes in the aforementioned throat section. In addition, these known harvester designs generally employ, at least in part, the same conveying means for delivering both types of cropes to the feeding means disposed immediately in advance of the chopping knives. And in order to obtain satisfactory operation under the variations in crop and ileld conditions normally experienced, the conveying means, feeding devices and chopping knives must operate at a i speed greatly in excess of that necessary for normal requirements, or else must be capable of being speeded up when the harvester is operating with a wide cutter bar in a heavy crop of grasses or legumes, if a satisfactory speed of travel is to be maintained. Consequently, power availability in excess of that afforded by most two-plow tractors is often necessary in order to obtain satisfactory operation which in turn necessitates employing a separate power unit for the `harvester. However, as previously indicated, the provision of a. separate unit results in a. considerable increase in initial cost and a less effective use of available power.

In the field cutting and chopping of row crops, such as corn, it is desirable to successively deliver severed stalks to the chopping element or device, butt end first. And in so handling corn with apparatus of the types heretofore employed, considerable difficulty has been experienced, particularly in tall corn, i. e. corn stalks having a height of as much or more than eight feet, because of interference between the stalk or stalks being chopped into short lengths and those that have been severed and are being 3 turned to a position in butt-end relation to the chopper. Moreover, in'choppingfthe stalks into `short lengths, there is less tendeniatra stalk to move away from the chbpping element and therefore better results are obtained, if the stalks approach the chopping element in a direction generally at a right angle to the cutting the presented end of the stalk longitudinally of the chopping element. In other words, the full length of a chopping element is rendered effective in cutting a stalk into small pieces.

In accordance with the present invention, a lower initial cost and a far more efficient utilization of available power is obtained through the use of feeding devices and chopping knives of a dimension more nearly conforming with the length of the cutter bar employed in harvesting grasses and legumes, i. e. conforming with the width of cut, through the use of a grass or legume conveying means conforming with the width of cut thus eliminating the use of a narrow throat section, through the use of a separate conveying means for row crops combinable with the feeding devices in a manner effectively utilizing the entire length of the chopping knives on such scrops, and/or through combinations of cutter bars and conveying means affording separate grass and row crop units effectively combinable with the same combination of feeding devices and chopping knives, all as hereinafter more fully set forth.

And it is therefore an object of this invention to provide an improved forage harvester incorporating separate grass and row crop cutting and Another object of this invention is to provide a forage harvester having arotating cutting cylinder presenting one or more knives extending longitudinally of the cylinder axis in skewed relation thereto with a row crop cutting and conveying attachment incorporating parts constructed and combined' in an improved manner operative to sequentially present severed stalks in butt-end relation and generally at a right angle with respect to the cutting edge of said knives.

Still another object of this invention is to provide a forage harvester incorporating a base unit including feeding devices and chopping knives and incorporating separate grass and row crop cutting and conveying units selectively detachably mounted on said base unit in an-improved manner utilizing one of the feeding devices as a pivotal support for either attached unit and in a dual capacity with respect to one of the attached units in that it also functions as a conveying element of such unit.

Still another object of this invention is to provide a row crop cutting and conveying attachment for forage harvesters incorporating an improved construction and combination of parts operative to present and deliver severed stalks to an elongated chopping element in a manner suchthat the movement of stalks toward the chopping elements progressively shifts the presented end of each stalk longitudinally of such element thus rendering the full length of the element efiective in cutting a stalk into short pieces.

In addition, another object of the present invention is to provide a forage harvester incorporating a base unit including feeding devices and chopping knives and incorporating a selected one of separate grass and row crop cutting and conveying units, said units including parts constructed and combined for coaction in an improved manner affording advantages as to the cost and ease of manufacture, as to combinability, and/or as to operating eillciency and and separate grass and row crop cutting and conveying units selectively combinable with the base unit to form a traveling forage harvester incorporating a construction and combination of units eliminating the use of a narrow throat or material passage immediately preceding the chopping knives.

Still another object of this invention is to provide a forage harvester including a wide swath cutting and conveying unit for grasses and legumes detachably combinable with a base unit inpresent severed stalks in butt-end relation to an elongated chopping device in a manner eliminating interference with respect to the movement of individual stalks.

effectiveness.

And therefore this invention may be considered as comprising the various constructions and combinations, all as hereinafter more fully set forth in the following detailed description and appended claims, reference being had to the accompanying drawings, in which:

Fig. 1 is a plan view of a mobile base unit embodying the invention with parts broken away;

Fig. 2`is a side view with parts broken away of the unit shown in Fig. 1 with the near side wheel and gear removed;

Fig. 3 is an enlarged partial section taken on line III-III of Fig. 1;

Fig. 4 is a perspective view of a row crop unit detachably mountable on the base unit;

Fig. 5 is a plan view of a harvester formed by combining the base and row crop units shown in Figs. 1, 2 and 4 with the belt tighteners on the row crop unit and with the ground driven shaft and sprockets, omitted;

Fig. 6 is a side view of the row crop harvester taken on line VI-VI of Fig. 5;

, Fig. 7 is an enlarged section through the lower feed roll taken on line VII-V11 of Fig. 6;

Fig. 8 is a top side view looking generally down into the stalk supporting chute means shown in Fig. 6;

Fig. 9 is a schematic showing of the drive mechanism incorporated in the harvester shown in Figs. 5 and 6 l Fig. 10 is a partial plan view drawn to a smaller scale illustrating the manner in which stalks are severed and fed to the chopping device;

Fig. 11 is a partial sectional view taken generally on line XIX1 of Fig. 10;

Fig. 12 is a perspective view of a'grass harvestving unit detachably mountable on the base unit;

Fig. 14 with the near side wheel removed; and

Fig. 16 is an enlarged side view of one of the supporting brackets carried by the'upper rear frame portions of the grass unit which is similar to the row crop bracket.

Referring at present to Figs. 1 and 2, it will be seen that the mobile base unit I comprises a rigid frame structure formed by a pair of transversely disposed parallel members 2 and 3 ilxedly united by a number of suitable cross members of which only members 4 and 6 connecting the near end of member 2 with the corresponding end and an intermediate portion of member 3, are shown in the interest of clarity. The opposite ends of member 3 suitably mount oppositely extending and axially aligned spindles 1 which in turn rotatably mount a pair of ground engaging supporting wheels 8. Members 4 and 6 extend forward of member 3 in laterally spaced generally parallel relation, the forward portion of member 6 being of greater length and bent laterally toward and nxedly united with the forward end of member 4 to form a generally U-shaped draft portion. The forward side of member 6 is provided with a bracket 9 having a series of spaced holes I9 therethrough arranged on an arc -with respect to a point on rigid member 3 adjacent the near wheel 8. And a drawbar I I has its rear end pivotally attached to member 3 at such point and extends forward therefrom immediately beneath bracket 9, the drawbar being provided with a pair of oppositely disposed apertured tabs I2 alignable with pairs of the holes in bracket 9 for the insertion of bolts or the like to ilxedly position travel forward at a rate faster than the mobile unit, it being understood that'during normal operation the pin and telescoping section are free of the notches thereby permitting the draft member to swing laterally about its front pivot support. 'I'he remote side portion oi the main frame, as viewed in Fig. 2, is provided with a plurality of upwardly extending members 24, 28 and 21 fixedly supporting a housing 28 in spaced elevated -relation with respect to underlying frame members 2, 3 and I3, this housing comprising similar side members 29, generally parallel side plates Il,

and suitable cross members 32 (note Fig. 5) of which only one is clearly shown in the interest of simplicity.

Housing 28, reference being also had to Fig. 8, operatively mounts-and encloses a rotating chopping device or cylinder 33 and a crop feeding device 30 which may include pairs of upper and lower feed rolls 34, 38 and 31, 38. respectively,

disposed immediately in advance of the 4chopping device, the latter coacting with a suitable shear bar 39 to effect a chopping or severing of material fed thereto. Chopping device 33 presents a series of blades 35 mounted in skewed relation to the -axis of rotation of cylinder 33. It willbe noted that the housing, which substantially en.

closes ythe rotary chopping device, is provided with a material receiving opening 4I', a material discharge opening 42 communicating with an upward and rearwardly extending spout 43 of which only a portion is shown, and with a Icover element 44 affording access to the top side'of the chopping device. The chopping device and feed rolls are suitably mounted for rotation about generally parallel horizontal axes through means of shaft portions and bearings suitably supported in opposed portions of side plates 3 I. And in this connection it will be noted that the sides of housing 26 extend forwardly beyond upper and lower feed rolls 36 and 38 to provide space for receiving an attachment therebetween, as hereinafter dethe drawbar in a selected angular relation with respect to the direction of travel. The forward end of the draft portion of the frame is braced by means of a diagonal member I3 having one end flxedly secured to rigid part I4 depending from the forward portion of members 4 and 6 and having its other end secured to member 3 at a point adjacent the far side thereof.

A draft bar I6 for detachably securing a wagon or the like in trailing relation to mobile unit I has its forward end supported for swinging movement about a vertical axis through means of a pivot support I1 secured to the underside of diagonal member I3. Draft bar supporting bracket I1 is further braced by agmember I8 xedly connecting same with the adjacent underside portion scribed. f

The near exposed end of the chopping device shaft fixedly mounts a pulley 46 and the corresponding shaft ends of both upper feed rolls 34, 36 and of the lower forward feed roll 38 are provided with sprocket wheels 41, 48 and 49, respectively. The far side shaft ends, note Fig. 3, of bot-h upper feed rolls are also provided with sprockets 5I and 52 which are drivingly connected by means of a chain 53 passing therearound and also around 'a chain tightening sprocket 54. Likewise, the far side shaft ends of both lower feed rolls are similarly drivingly connected through sprockets 56 and 51 having a chain 58 passing therearound and also around an idler sprocket 59. The bearings supporting the far and near side shaft-end portions of upper feed rollsl 34, 36 are adjustably supported through similar means (ofwhich only one is shown) comprising a detachable element 6I pivotally supported'on an intermediate portion of a rigid arm 62' which is in turn supported at one end for vertical swinging movement about a transverse horizontal axis afforded by a pivot support`63, the opposite end of bar 62 being adjustably connected with a fixed portion of housing 28 (not shown) through a resilient means 64 acting to maintain the upper rolls in a predeterminedreleasable position relative to the lower rolls.

Transverse frame member 3 xedly detachably sup'ports a .gearbox 66 enclosing and supporting one end of a shaft 61 which extends inward therefrom in parallel relation to member 3, shaft The inner or far side end of shaft 61 is supported on member 8 and nxedly mounts three axially spaced pulleys 88, 1| and 12 for rotation therewith, pulley 1| being disposed in driving alignment with the pulley 46 on the adjacent shaft end of the chopping device. The near forward side of housing 28 is provided with a bracket 13 rotatably supportingy a stub shaft 14 disposed in parallel relation with respect to shaft 61 and with respect to the axis of feed rolls 84, 36, 31 and 88. Shaft 14 mounts a pulley 18 in driven alignment with the pulley 12 on shaft 61 and a sprocket wheel 11 aligned with the sprockets on the adjacent ends of lower front feed roll 88 and on both upper feed rolls 84 and 36. Bracket 13 is provided with a rearward extension 18 which detachably mounts a stub shaft 18 disposed in parallel relation to shaft 61 and stub shaft 14, shaft 19 being disposed in substantial axial alignment with the shaft of lower forward roll 38. Stub shaft 19 mounts a dual pulley 8| having one element thereof disposed in driven alignment with the pulley 69 on shaft 61. Power for operating shaft 61 is obtained from a forwardly extending shaft 82 having its rear end universally connected with the forward end of shaft 68 projecting from gear box 66 and having its forward end provided with a universally connected section 83 adapted for connection with the rear end of a tractor power take-off shaft (not shown). Power transmitting shaft 82 has its forward end rotatably supported in a bearing 84 which is in turn supported on a standard 85 pivotally mounted on a forward portion of the drawbar or tongue for fore and aft swinging movement relative thereto. Preferably bearing 84 is mounted on standard 85 by means of a pivot support 86 affording limited pivotal movement of the bearing about a transverse horizontal axis with respect to the standard. Power transmitting shaft 82 comprises telescoping sections 81 and 88 affording longitudinal movement of the forward end thereof relative to the rear portion universally connected with 'gear box shaft 68. In

- view of the foregoing it should now be obvious that power for driving the chopping device and feed rolls is derived through shaft 82, gear box 66 and shaft 61, through belt connections between pulleys 69 and 8|, between pulleys 1| and 46, and between pulleys 12 and 16, and by means of a chain 89 running around sprocket 11, sprocket 48, sprocket 41, sprocket 49, and around an idler sprocket 9| detachably mounted on the near side of housing 28. And it should now be obvious that lower rear feed roll 31 is driven from the far side of housing 28 through means of the chain 58, as previously described. Preferably in the interest of safety the sprocket wheels and chains on the far side of housing 28 are covered with a readily demountable shield 8l.

Referring again to Figs. l and 2, it will be seen that an intermediate portion of transverse frame member 3 is provided with a pair of laterally spaced and aligned forwardly projecting rigid brackets 92 mounting a shaft 93 disposed in generally parallel relation to member 3. The near end of shaft 93 is provided with an upwardly extending arm 94 fixed thereto, this arm terminating in a fore and aft arcuate portion 96 provided with gear teethl 91. The opposite end of shaft 83 has an arm 98 fixed thereto for movement therewith and a link 88 pivotally connects the free end of this ann with an intermediate l portion of a lever lll having its rear end pivotally supported on a bracket structure |02 superimposed on transverse frame member 8. Lever I8| is supported for vertical swinging movement about a horizontal axis generally parallel to member I and has its forward or free end provided with a link |88 connectable in supporting relation to the underside of a grass or row crop attachment, as will be hereinafter described.

A gear box |04 is mounted on frame member 6 in overlying adjacent relation to the near end of shaft 88 and supports a projecting stub shaft |06 which is parallel to shaft 81 and is provided at its outer end with a pinion |01 meshing with the arcuate rack formed on arm 84. Gear box |04 also rotatably supports a forwardly extending stub shaft |88, it being understood that the gear box enclosed ends of shafts |06 and |08 are suitably connected so that a rotation of shaft |08 imparts a corresponding rotation to shaft |06 and pinion |81 and that the gearing connecting shafts |06 and |08 is so constructed in a well known manner (and not shown) whereby rotation of shaft |06 takes place only when shaft |08 is rotated. The forward end of shaft |08 is universally connected with a forwardly projecting section |09 rotatably supported in a bearing carried by a standard ||2 extending upward from a forward portion of frame member 6. The forwardportion of tongue is provided with an upwardly extending standard |3 suitably mounting a stub shaft and hand crank assembly ||4. the rearward end of this stub shaft being operatively connected with the forward end of shaft |09 by means of an intermediate section ||6 and universal joints ||1 and ||8. And in view of the foregoing it should now be obvious that upon turning the crank, the pinion |01 on stub shaft |06 coacts with the arcuate rack 81 on shaft 93 to impart a turning movement to the latter, thereby effecting a raising or lowering movement, as desired, of the forwardly extending lever |8|.

Referring to Figs. 4, 5 and 6, it will be seen that the row crop harvesting unit |20 comprises a generally rigid frame structure formed by outer side members ||9 and |2| having rearwardly dverging horizontal forward portions and rear portions inclined upwardly from the forward p01- tions in parallel relation with respect to each other, these side members being fixedly united by a plurality of cross members |22, |23 and |24 and additionally by longitudinally extending members |26 and |21. An additional pair of longitudinally extending members |28 and |29 have their rear end fixedly secured to laterally spaced portions of front cross member |24 and extend forward therefrom in parallel passage forming relation to a point near the front end of the unit whereupon member |28 diverges Outwardly and is joined with the forward end of side member H9. Member |29 extends forward from cross member |24 in straight line relation to its junction with the forward end of side member |2I. The forward side of cross member |24 carries a pair of laterally spaced brackets |3| operatively supporting a row crop cutting device or cutter bar and sickle mechanism |32, vthe near side of the latter being provided with an outwardly extending pitman |33.` Near side member |2| is provided with an enlargement or support part |34 immediately to the rear of croSS member |24 and a wobble box |36, that is a box containing means for converting rotary motion to oscillating motion. is detachably mounted on 9 this support and presents a forwardly extending oscillating stub shaft |31 on which is secured a depending arm |38 positioned for detachable connection with the adjacent end of pitman |33. The rear ends of side members ||9 and |2| are provided with a pair of xed rearwardly extending parts |39 (see also Fig. 16) having transversely aligned openings |41' therethrough and a surrounding series of bolt holes |42. And it should be understood from the description thus far that when the row crop unit is attached to a base machine or unit the part of the frame defined by the forward portions of side vmembers ||9 and |2|, by cross member |24, and by longitudinally extending members |28 and |29, is adapted to rest on or be positioned in adjacent parallel relation to the ground with the rear portion oi the frame extending upward and rearward therefrom to its points of support on the base unit.

The frame structure just described mounts a pair of sheet metal sections or gathering elements |43 and |44 presenting spaced inner opposed vertical wall portions defining a passage 46 having a forward portion generally conforming with the spacing of frame members |28 and |29 and extending rearwardly and gradually upward from their front ends to a point adjacent the far rear side of the unit as viewed in Fig. 5. The bottom edges of the opposed passage forming wall portions of sections |43 and |44 are secured to a pair of laterally spaced longitudinal frame members |41 which extend upward from front cross member |24 to rear cross member |22, one of which is clearly shown in Fig. 6. Also mounted on the frame of the unit is a severed rearward downwardly inclined surface or oor |50 (see Fig. 11) on which stalks may be positioned to extend generally transversely of the unit with their butt-ends disposed adjacent the far rear side thereof as indicated in Fig. 10. The spaced opposed wall portions ofsections |43 and |44 in advance of frame cross member |24 prO- vide a stalk receiving throat and narrow passage section |46 by means of which the buttends of standing stalks are guided into severing relation to the sickle or cutter bar |32 as the unit travels along a crop row. And in order to afford a support for the butt ends of severed stalks as they are moved rearward and upward through passage |46, a bottom plate or floor |5| (note Fig. 11) is secured to frame members and spans the opening between the lower edges of the inner opposed wall portions of sections |43 and |44.

A severed stalk conveying mechanism |45 is provided to convey severed stalks in single i'lle through passage |46 and sequentially position the stalks butt end first in chute |48 as indicated in Figs. 10 and 11, a shaft |52 is rotatably supported immediately adjacent the outer rear side Wall of section |44, this side wall being provided with vertically spaced longitudinally staggered openings |53, |54, |55 and |56. The opening |53 receives a star wheel or deiiecting member |68 which is fixed to the top end of shaft |52 and the openings |54 and |55 receive sprocket Wheels 51 and |58 all of which are secured to shaft and |13.

|52 for rotation therewith. In addition, the ior ward portion of this wall is provided with vertically spaced longitudinally staggered openings 58, |6| and |62 which are similar to and alignedwith the openings |54, |55 and |56, respectively.

And a plurality of longitudinally extending members |63, |64 and |66, one being disposed immediately beneath each pair of longitudinally aligned openings, support fixed stub shafts |61. |68 and |89 rotatably mounting sprocket wheels |1|, |12 and |13, which project through the associated opening with the vwheels |1| and |12 aligned with the sprocket wheels |51 and I 58, respectively, on shaft I 52, the latter also extending through and being in part supported by members |63, |64 and |66. A short vertically extending shaft |14, which is disposed to the rear of and parallel to shaft |52, extends from a point below the floor of passage |46 upwardly to a point above the lower end of shaft |52, the upper end of shaft |14 being provided with a sprocket |16 aligned with a sprocket |11 secured to the lower end portion of shaftl |52. A chain |18 passes around the aligned sprockets on shafts 14 and |52 to establish a driving connection therebetween. A lower portion of shaft |14 mounts a sprocket |19 in position immediately above the floor of passage |46, this sprocket projecting through the lower rear opening |56 in the wall portion of section |44. A stalk gathering and conveying chain passes around each pair of longitudinally aligned sprocket Wheels, i. e. a chain |8| passes around sprockets |51 and |1|, a chain |82 passes around sprockets |58 and |12, and a chain |83 passes around sprockets |19 'I'he gathering and conveying chains are each provided with similar stalk engaging flights `|84 which project into passage |46 and travel rearwardly therethrough as indicated in Fig. 5. A short vertical shaft |86 is mounted adjacent the upper outer rear side wall of section |43 in generally parallel relation to shaft |52 and mounts a sprocket |88 on the top end thereof in laterally opposed parallel relation'to sprocket |51 on shaft |52. The forward passage forming wall portion of section |43 is provided with an opening |88 Atherethrough which is opposite the opening |59 in section |44 and which is longitudinally aligned with the sprocket |88 on the top end of shaft |86. A longitudinally extending member |90, similar to member |63, extends immediately beneath opening |89 and mounts a fixed stub shaft |9I which in turn ro- -tatably supports a sprocket wheel |92. A gathering and conveying chain |93 passes around sprockets |88 and |92 and is also provided with flights |84 which project into passage |46 preferably in staggered relation to similar flights on the opposed chain |8|. And since the active course of chain |93 does not follow a straight line path, the passage forming side wall of section |43 is provided with two additional openings (not clearly shown) in longitudinal alignment with the opening |89 and a pair of idler sprockets |80 and |85, which are also mounted on member |90, project through these openings and guidingly engage the active course of chain |93. And in order to Vinsure that the stalks are sequentially severed and thereafter move rearwardly in single file toward chute |48, a at spring element |95 has its forward end secured to frame member |28 at a point adjacent guide sprocket |85 and extends rearward in curved convergingfrelation to the opposite side wall of passage |46, this spring element closely approaching the opposite l l vertical wall portion of section |44 immediately in advance of cutter bar |32 and extends rearward therealong in overlying relation to lower.

chain |83 and to a point adjacent the rear edge of section |44. l

The lower end of shaft |86 is provided with a gear |94 (see Fig. 9) which is in mesh with a gear |96 on the upper end of a vertically disposed parallel shaft |91 that extends downward to a point below the bottom wall or floor of passage |46. The bottom end of shaft |91 is provided with a sprocket wheel |98 and a driving connection is established between shafts; |62 and |91 by means of a chain |99 which passes around sprocket |93 and around an aligned sprocket 20| secured to a lower end portion of shaft |52 immediately below the floor of passage |46. The extreme lower end of shaft |14 mounts a bevel gear 202 in mesh with a complementary gear 203 on the adjacent end of a cross shaft 204, the outer or opposite end of shaft 204 mounting a sprocket wheel 206. Another cross shaft 201 is supported on the top side of frame members |26 and |21 in forward vertically spaced parallel relation to shaft 204, shaft 201 mounting a sprocket wheel 208 on its inner end aligned with the sprocket wheel 206 on the adjacent end of shaft 204 and mounting a stepped multiple pulley 269 on its outer end. A chain 2|I passes around sprockets 206 and 208 and establishes a driving connection between shafts 204 and 201. Wobble box |36 mounts a shaft 2|2 which projects from opposite ends thereof and which is positioned in parallel relation to shaft 201 upon attachment of the wobble box to the support |34 aorded by frame member |2|, as previously described. The inner projecting end of shaft 2|2 mounts a stepped pulley 2 I3 aligned with and complementary to the pulley 209 on shaft 201 and a'belt 2 i4 positioned around these pulleys transmits power from the wobble box to shaft 201. The outer projecting end of shaft 2|`2 mounts a pulley 2|6 likewise alignable with a pulley on the base unit. In addition (see Fig. 4), frame member 2| mounts a iixed cross shaft 2|1 presenting oppositely extending portions on which are rotatably mounted sleeve elements 2|8 and 2|9 provided with iixed arms 22| and 222 which in turn support fixed stub shafts rotatably mounting .the chain 89 driving sprockets 41, 48 and 49,

and then remove nut 226, sprocket 49, washers 221, bearing 228'and washer 229 from the right end of lower feed roll shaft 23| (left hand end i of shaft as seen in Fig. '1) When this has been done shaft 23| may bevwithdrawn from the far side of housing 28 with the nut 232, sprocket 51, sleeve-233, washer 234, bearing 235 and washer 236 positioned thereon since the lower feed roll proper is hollow and loosely 'supported on shaft 23| by means of fixed internal annular end rings 231 and since a driving connection between shaft 23| and roll 38 is established by means of diametrically opposed clutch jaw receiving recessesr 238 formed in the face of the annular ring 231 which faces outwardly with respect to the far side of the machine, and by means of a clutch element 239 fixed to shaft 23|, as byiwelding, and provided with diametrically opposed inwardly extending jaw projections 24| complementary to and receivable in the recesses 238. In this connection it will be noted that the external diameter of clutch element 239 is less than the diameter of the central opening 242 in the adjacent one of the similar pivot rings 243, the latter slidably receiving the bearing 236. Rotation of the bearings 228 and 235 relative to the associated ring 243 is prevented by means of lubricant fitting receiving bosses 244 disposed in a complementary radially extending recess 246 formed in the pivot rings. The description thus far. particular referencebeing had to Fig. 7, has proceeded onthe assumption that as to the base unit the lower feed roll 38 is supported and retained in housing 28 essentially by means of the pivot rings 243, bearings 228 and 235, etc. carried by shaft 23|. And in this connection it should be apparent that a material lateral shifting of the roll 38 relative to housing 28 is prevented by the coaction of lubricant receiving bosses 244 with the inner opposed surface of the recesses 246 formed in the pivot rings 243. Consequently, if Fig. 7 is to be considered as illustrating the manner in which the lower feed roll is supported prior to the attachment of the row crop "nit, it must be borne in mind that the row crop unit support parts |39 and the bolts securing same to the pivot rings, would not be seen.

Upon withdrawal of lower feed roll supporting shaft 23| and removal of the lower hollow feed roll 38, as previously described, the next step in attaching the row crop unit to the base unit is to position the upper rear end of the row crop unit between the laterally spaced side walls of housing 23 with the enlarged openings 4| in support parts |39 aligned with the openings afforded by pivot rings 243. When this has been done the next step is to shift the rear end of the row crop unit until the bolt holes |42 in support parts |39 are in alignment with the corresponding holes in the pivot ring 243 whereupon a punch or the like may be inserted through a pair of these aligned holes to maintain these parts in correct position for the insertion of bolts 241 through the remaining holes, thereby securing the rear supporting parts |39 on the row crop unit in fixed side abutting relation to the inner surfaces of the pivot rings 243, as clearly indicated in Fig. '7. When this has been accomplished, the punch may be removed and a bolt inserted in lieu thereof. And all that remains to be done in order to complete the assembly is to position hollow roll 38 between the side walls of housing 23 in substantial axial alignment with the central holes in pivot rings 243 whereupon shaft 23| may be inserted from the far side of the machine and supported in the relation shown in Fig. '1 simply by replacing washer 229, bearing 228, washers 221, sprocket wheel 49 and nut 226. In this connection it will be noted that the central holes |4| in row crop unit support parts |39 are of slightly smaller diameter than the corresponding holes in the pivot rings, thus providing an annular shoulder adapted to be side abutted by a peripheral flange 248 on the bearing housings as shown. Therefore it should be obvious that when the parts have been assembled in the general relation shown in Fig. '1 a tightening of nut 223 will maintain this assembly in the position shown. And all that remains to be done in order to complete the mounting of the row crop unit on the base unit is to connect the link |03 on the forward end of lever |0| with a depending pivot support 249 on the bottom side of the unit, thereby rendering the lifting mechanism actuated by hand crank assembly ||4 operative to effect a raising and lowering of the row crop unit about the pivot supports afforded by pivot rings 243, the latter being rotatable in a complementary opening preferably formed by reinforcing plate members 25| surrounding the somewhat larger *aligned openings in the side walls 3| of housing 28, these plate-like members including an inner peripheral flange 252 affording a turning seat for the pivot ring.

Upon having completed the attachment of the row crop unit as just described, all that remains to be done, assuming the tongue I| has been attached to a propelling tractor and thepower transmitting shaft 82 connected with a power take-off on the tractor, is to replace chain 58 around sprockets 56, 51 and 59, replace shield 90, replace chain 89 around sprockets 41, 48 and 49, reattach dual pulley 8| to bracket extension 18, place a belt around pulley 69 and one section of dual pulley 8|, and place a belt` 2|5 around the other section of dual pulley 8| and the pulley 2 I6 on the outer end of wobble box shaft 2|2. When this has been accomplished, it will be seen, reference being had to Fig. 9, that upon delivery of power through shaft 82, gear box 66 and shaft 61, the latter drives the wobble box |36 through its belt connection with step pulley 8|, drives the chopping device 33 through the belt connection between pulleys 46 and 1|, and drives the stub shaft 14 on brackets 13 through a belt connection Iwith pulleys 12 and 16. It should therefore be obvious that the power transmitted from gear box 66 will result in a rotation of chopping device 33, of all four feed rolls and of wobble box cross shaft 2|2 which reciprocates sickle bar |32. Moreover, it should now be apparent that rotation of wobble box cross shaft 2|2 imparts an oscillating motion to the arm depending from the forward end of oscillating shaft |31 which in turn drives the cutter bar mechanism |32 and that the belt connection between the step pulley 2 I3 on the inner end of wobble box shaft 2|2 and the aligned pulley 209 on cross shaft 201 results in a rotation of the latter which in turn rotates cross shaft 201 and by means of the gears and sprockets also the shafts |52 and |91.

If it now be considered that the harvester comprising the base and row crop unit combined as previously described is being drawn through a field of corn with the throat-portion of passage |46 in stalk receiving relation to a row of standing corn, it will be seen that the movement of the upper conveying and gathering chains 8| and |93 which are operating at ground speed aid in gathering the stalks into throat |46. Then as the row crop unit progresses down the field the middle gathering chain |82 also contacts the standing stalks of corn and just before the stalks contact the sickle bar |32, the stalks are engaged by spring element |95 and are thereby pushed against the opposite side-wall of passage |46 at which time the stalk is severed by the sickle and a lower portion of the stalk is contacted by the lower gathering chain |83, the spring |95 acting to maintain the lower portions of severed stalks in conveyed relation to lower chains |82 and |83 until the butt end of the stalk is just about to leave the floor member and the mid-portion of the stalk is about to be contacted by star 14 wheel |80. 'I'he movement of the gathering and conveying chains |8|, 82 and |83 rearwardly through passage |46 operates on severed stalks to move same rearwardly through passage |46 with the butt end of the stalks engaging the floor |5| and with the butt end of the stalk moving rearward more rapidly than the upper portion thereof, the last mentioned action being accomplished by the ydifferential Vfeeding action -of chains |8I, |82 and |83, the upper opposed chains |8| and |93 traveling at substantially equal rate and Vat a speed less than the next lower chain |82 which in turn travels at a speed less than the chain |83 immediately overlying the bottom wall |5| of the passage. As a result when the stalks reach a position adjacent the rear edge of section |44 the stalk is disposed in a position such that its butt end is adjacent to and approaching the far side of the feeding device as viewed in Fig. 10 and the stalk extends forward and upward away from the feeding device in generally parallel relation to the merging device of the rear outer side wall portion of passage |48 and the forward or bottom edge of chute |48 whereupon engagement of the star wheel with an intermediate portion of the stalk immediately shifts same laterally of the enlarged chute portion |49 and into t position generally shown in Fig. 10. Or in other words. just as the butt end of the stalk is about to be grasped by feed rolls 36 and 38, star wheel |60 strikes a mid-portion of the stalk causing the stalk to pivot about its butt end until the upper portion of the stalk is moved out of narrow passage |46 and enters enlargement or trough |49 and rests on surface |50 out of the way of oncoming stalks as shown in Fig. 10 with the tassel end of the stalks longitudinally aligned to be fed to the near end of the chopping cylinder by the feeding rolls. 'Ihat is, in a position .in such angled relation to the feed rolls 36 and 38 that the stalks pass therethrough in an angled relation to the chopping device 33 such that the presented end of the stalk is progressively shifted longitudinally of the feed rolls from one side thereof to the other as the stalks are fed thereto such that the butt end of a stalk is chopped up by one end of chopping device 33 while the tassel end of the same stalk is chopped up by the other end of device 33. And since it should now vbe obvious that the stalks are delivered in single file or one at a time to the rear end of the passage as just described, the star wheel |60 operated to sequentially position the stalks in` angled relation to chute |48 so that the stalks pass through the feeding and chopping devices in the manner described and without interference with one another thereby utilizing the effective length of the chopping device 33 at all times.

Referring to Figs. 12, 14 and 15, it will be seen that a grass attachment embodying the invention comprises a unitary structure including an endless driven type conveyer 253 having an effective width substantially equal to the effective width of the feeding device, that is substantially equal vto the effective length of feed rolls 36 and 38, and

substantially equal to the effective length of the chopping device 33, andan elongated cutter bar and sickle or mower mechanism 254 disposed immediately in advance of conveyer 253vin lateral symmetrical relation thereto, and including material confining side walls 256 extending from the rear end of the structure-forwardly along opposite sides of conveyer 253 and to points in advance of the opposite ends of the cutter bar or mower254. The forward end portions of side 15 walis 256 terminate in divider points 261 liaving base or shoe portions 256 adapted to rest on or to be disposed in proximate parallel relation to the ground when the grass unit is attached to the base unit as hereinafter described. 'I'he cutter bar or mower 254 and side walls 256 are supported in part on a transverse cross member 256 which extends outwardly beyond the near side wall and presents a tubular bracket like support 26| for wobble box |36. And in order to adequately shield this bracket and the wobble box mounted thereon (when the latter is attached to such support) the near side divider 251 includes a rearwardly and outwardly ared sheet metal portion 262 which is substantially coextensive with the extension of cross member 256 and with the combined height of the wobble box and support therefor. The cutter bar or y mower 254 is of a length practical for the eiilcient cutting of grass crops.

A pair of standards 263 extend upward from opposed forward portions of side walls 256 and support a generally U-shaped rail 264 positioned in spaced overlying relation to the top edges of the side walls. The opposed forward end portions of this rail curving downward and rearward beneath and being secured to the bottom edge of divider points 251 in skid or runner relation thereto. T'he rear portion of rail 264 carries a connector comprising a pair of bars 266 pivotally attached thereto and depending therefrom in spaced parallel relation with respectv to each other, these bars having their remote ends united and presenting a pivoted part 261 attachable to the top side of base unit housing 26. The unitary structure also comprises generally parallel similar side frame members 268 (see Fig. 14) united by cross member 256 and by additional cross members (not shown). The rear end of side frame members 266 mount rearwardly extending parallel supports 266 similar to the corresponding parts of the row crop unit even as to the aligned The underside of the unitary structure is addishaft receiving openings |4| and as to the bolt receiving openings |42 surrounding openings |4I. tionally braced by means of a downward bowed longitudinal member 21| having its opposite ends connected with a rear cross member (not shown) and with a transverse cross member 212, and by means of a vertically disposed member 213 flxedly uniting the mid-portion of bowed member 21| with a corresponding part of the floor structure. The rear side of vertically disposed member 216 mounts a pivot support 214 adapted for connection with the forward end of link |63 on lever I6 The conveyer 256 comprises a lower roll 216 supported in bearing structures (not shown) mounted on opposed forward portions of side members 266 immediately to the rear of cutter bar 254. carries transverse raddle bars 216, passes around roll 216 with its active and inactive courses traveling respectively above and below a iloor structure 216. Preferably the endless conveying element 211 is separable in the usual manner to afford removal of same from the driving and driven rolls therefor. In this connection upper roll element (see Fig. 13) comprises a hollow cylinder 26| incorporating annular internal end rings 262 having axially aligned openings therethrough dimensioned to slidably receive -shaft 23|, the outer surface of the ring facing the far side of the machine being provided with diametrically opposed clutch jaw receiving recesses 263 complementary to the jaw projections 24| on And an endless element 211 which 16 clutch element 236 fixed to shaft 26|. Thus it will be seen that the construction of the feed and conveyer roll elements are in general identical except as to their diameters and except as to the nature of their outer surfaces.

When it is desired to attach the. grass unit to .the base unit in place of the row crop unit extension 16, chain 66 is removed from sprockets l 41, 46 and 46 and the nut 226, sprocket 46,

washers 221, bearing 226 and washer 226 are removed from the near side end of shaft 23| (the left hand end of the shaft as viewed in Fig. 7), whereupon this shaft is withdrawn from the feed roll through the far side of housing 26, and roll 36 is removed from the housing. When this has been done one of the bolts 241 uniting each support part |66 with a pivot ring 243 is removed and a punch or the like is inserted in place of the removed bolts whereupon the remaining bolts may be removed, the punch withdrawn, and the row crop unit pulled from be` tween the forward side wall portions of housing 26. 'I'he next step is to position the rear end of the grass unit between the spaced forward portions of the side walls of housing 26 with the enlarged openings 4| and bolt holes |42 in support parts 266 aligned with the corresponding openings in pivot rings 243, and insert a punch or the like between a pair of the aligned bolt receiving openings. When this has been done bolts 241 are inserted in the remaining holes and tightened to secure support parts 266 in fixed side abutting relation to pivot rings 246, the punch withdrawn and a bolt inserted in lieu thereof. Conveyer roll element 26| (see Fig. 13) is next positioned between the side walls of housing 26 in axial alignment with the opening |4| in supporting parts 266, shaft 23| is inserted therethrough from the far side of the machine and the washer 226, bearing 226, washers 221, sprocket 51 and nut 226 are replaced on the near side thereof (left hand end as shown in Fig. 13). And since the construction of con- ,veyer roll element 26| is in general identical to the construction of feed roll 36, it will be obvious that the insertion of shaft 26| through the-conveyer roll element establishes a driving connection therewith through engagement of shaft clutch element y236 with the jaw receiving recesses 263 in the opposed face of internal ring 262. In most instances, it is desirable to rotate conveyer roll element 26| at a. speed different from that of feed roll 36, and consequently different size sprockets are usually employed. And in the interest of simplicity it is preferable to so design the rolls and sprockets that .the desired change in speed of rotation is obtained by merely interchanging the sprockets positioned on the opposite ends of shaft 26|, this change being indicated by Fig. 13 wherein sprockets 46 and 51 are reversed.

'I'he grass unit is now attached to the base unit through coaction of support parts 266 and pivot rings 246, exactly in the same manner as described with respect to the row crop unit, ,and all that remains to be done in order for the grass 17 unit to be supported on the base unit for movement therewith is to attach the linkr |83 on lever |8| to pivot support 214 on the underside of the grass unit. Conveyer roll element 28| is now supported for rotation with shaft 23| and lall that remains to be done in order to render conveyer 253 ready for operation is to separate endless conveyer element 211 (if this has not already been done) and reconnect same around upper roll element 28|. Next replace chain 58 around sprockets 58, 49 and 59. replace shield 98, replace chain 89 around sprockets 41, 48 and 51, remount stub shaft 19 and dual pulley 8| on bracket extension 18 and replace the belt around pulleys 89 and 8|. When this has 'been done all parts of the base unit and all parts of the grass unit, with the exception of the cutter bar 254, are obviously rendered operative upon an application of power to transmission input shaft 82. And in order to render the cutter bar mechanism 254 operative, wobble box |38 is removed from the row crop unit andmounted on support 28| of the grass unit, which mounting places-` depending oscillating arm |38 in position for Y ready connection with the adjacent end of cut" terbar pitman 284 and positions a pulley 288 on the inner end of shaft 2|2 (substituted for step pulley 2 |3) in alignment with the same portion of dual pulley 8| as was previouslyused in driving wobble box shaft 2|2 when this box was mounted on the row crop unit and the latter attached to the'base unit.

A forward side of wobble box |38 mounts a transverse bracket 281 which in turn supports a pair of upwardly converging members 288 and 289 for fore and aft swinging movement about a transverse horizontal axis, the.upper ends of these members being iixedly joined and support a pulley 29|. Member 288 mounts an elongated intermediate sleeve element 282 slidable longitudinally thereof and provided with forward and rearward facing projections 293 and 294 adjacent the lower and upper ends thereof, respectively. Projection 293 mounts a pulley 298 in line with pulley 29| and projection 294 has one end of a rope or cable 291 attached thereto which passes upward therefrom and over pulley 29| and then down and around pulley 298, it being understood that the forward end of rope 291 is secured to a support (not shown) preferably positioned to be within easy reach of the operators station on a propelling vehicle (not shown). Sleeve 292 xedly mounts a transversely disposed sleeve 298 which in turn rotatably supports a transversely extending shaft 299 having a pulley 38| fixed on the outer or near end thereof for rotation therewith and having a reel 382 fixedly carried by the inner or far side portion thereof, the reel being thereby disposedin operative overlying relation with respect to cutting mechanism 254. Referring also to Figs. 1 and 2, it will be seen that the hub portion of near side ground engaging wheel 8 mounts a sprocket 383 and that opposed rear portions of frame members 4 and 5 support a pair of laterally valigned vertically extending standards 384, which in turn support bearings 388 mounting a cross shaft 381 generally parallel to frame member v3 and to power input cross shaft 81. A sprocket wheel 388 is positioned on the near end of shaft 381 in alignment with wheel hub sprocket 383 and an intermediate portion of this shaft mounts a laterally fixed pivot support 389 which in turn mounts the rear end of a forwardly extending laterally rigid member comprising rear and front 18 telescoping sections 3|| and 3|2, respectively, a separation of which is resisted by a stiff tension spring 3|3 having its opposite ends fixed 'to collars 3|4 and 3|8 which are in turn fixed to adjacent portions of sections 3| and 3|2, respectively. 'I'he forward end of section 3|2 is pivotally attached to the transverse sleeve 298 carried by member 292 and is operative to maintain members 288 and 289 and sleeve 298 in a predetermined position and yet permit the height of reel 382 to be readily adjusted through means.

of rope 291. A rear portion of section 3|| carries a fixed part 3|1 which in turn rotatably supports a cross stub shaft 3|8 disposed in overlying relation to section 3| stub shaft 3|8 being disposed in forwardly spaced parallel relation to cross shaft 381 and mounts a sprocket wheel 3 9 on its inner end aligned with a sprocket wheel 32| on the.A adjacent end of shaft 381. The near end of stub shaft 3|8 mounts a pulley 322 disposed in alignment with the pulley 38| on the outer end oi reel shaft 299. And it should now be obvious that upon placing a chain 324 around sprockets 383 and 388, a chain 328 around' sprockets 3|9 and 32|, and a belt 321 around pulleys 38| and 322, the reel will be driven at a speed of rotation proportional to the rate of travel.

When the grass unit has been attached to the base unit and the connection of parts completed, as just described, it should be obvious that upon coupling tongue to a propelling tractor and that upon connecting power transmitting shaft 82 to the tractor power take-off (not\ hown), the chopping, feeding. conveying and cu ting devices may be operated as desired simply by controlling the input of power to shaft 82, the grass unit including the reel may be raised and lowered as desired simply by manipulating hand crank assembly ||4, and the reel may be raised and lowered relative to the cutter bar and conveyer by adjusting rope 291 to'vary the vertical position of sleeve 292 on member 288. As the harvester is propelled through a field the sickle element of the cutter bar mechanism severs the grass or legumes which through coaction of the rotating reel fail onto endless conveyer 253 and are-carried thereby upward convey the material therethrough and into the chopping device in a layer conforming generally to the width of swath cut by the mowing mechanism.

In other words, the effective width of the conveyer and the effective width of the severed mato the chopping device with a minimum of compressing or compacting action both laterally and vertically with respect to its direction of travel.

And it should be obvious that this type of construction overcomes several of the difficulties encountered in handling a swath of-normal 'size with the prior art structures since the swath must be bunched and compressed in order to enter the small feed roll opening afforded by such structures. The bunching and compress-.-

ing of severed material requires an excess of nd rearward to feed rolls 34. 38 and 31 which operate to 19 power, both for feeding and cutting. and frequently results in the narrow throat passage afforded by the prior art structures becoming plugged and/or the material being fed to the chopping device in large slugs. In accordance with applicants invention, the power requirement is moderate and more uniform as the grass cut by the sickle is conveyed to the feed rolls in a wide relatively thin layer that is easily handled by the chopping device.

Applicants row crop attachment can be readily substituted for the grass attachment, and when this is done it should be noted that a great deal ofthe apparatus for driving the reel can be left on the base unit. For example, it is only necessary to remove chain 326 and unfasten member 3| I at pivot support 303 and the remaining reel drive apparatus can be left on the base unit as it will not interfere with the operation of the corn attachment. As previously disclosed, the stalk conveyers operate at different speeds so that the butt end of each stalk is conveyed to the far end of the feed rolls at a more rapid rate than the top portion thereof and when the butt end of the stalk is released by the conveyers and is about tov enter the far side of the 'feed rolls, the action of the star wheel |60 causes each stalk to pivot laterally with the stalk coming to rest with its butt end grasped between the far ends of feed rolls 3B and 38 and with its upper end resting on the near side of chute M8 out of the way of oncoming stalks.` In this connection, it will be noted that the stalks as.they are fed between the feed rolls are positioned diagonally to the longitudinal center line of the base unit with the forward end `of the stalks laterally offset to the far side of the base unit in relation to the rear end of the stalk. And as seen in Fig. `11 the blades 35 of chopping device 33 are diagonally mounted on the rotor with the far end of each blade 35 in leading relation to the near end of each blade. Therefore as the stalks are fed into the chopping device the stalks are being fed substantially perpendicularly to the blades 35 of chopping device 33. This results in greater cutting efficiency as it reduces the tendency of the stalks to move away from the cutting blades.

With the row crop attachment applicant hasinvented a substitute for the grass attachment which will handle a row crop with all the eciency of grass handling by the combined grass unit. For example, the means for handling the stalks not only solves the problem of eliminating interference between stalks as they are fed into the chopping device but it also results in the full length of the chopping device being utilized instead of only a relatively small portion thereof, comparable to the thickness of several stalks. And consequently, the chopping knives stay sharp much longer than is the case where only a small portion of a knife or knives are active. In addito increase the speed of the chopping device, a smaller pulley can be substituted for pulley I6 which drives the -chopping device; and if it is desired to increase the speed of the feed rolls a smaller pulley can be substituted for the power input pulley of the feed rolls. In operation, the rotary chopping device has considerable flywheel action and it is therefore desirable to provide an overrunning clutch of conventional design between pulley 46 and chopping device 33 (not show) so that if the power being supplied by pulley 46 is stopped for any reason the chopping device can continue to revolve independently of pulley 46 and connected apparatus and therefore clear itself of chopped material. And as a further safeguard, it is also desirable to incorporate a conventional overload clutch of the type requiring manual reset between pulley 16 and feed roll drive sprocket l1 (not shown), as the inclusion of such a device serves to prevent stones or other objects of a size and nature likely to damage the chopping device 33 from passing between the feed rolls and into the former.

Furthermore, it should be apparent that the base unit can be utilized as a stationary chopping unit since material to be chopped may be fed between the feed rolls 36 and 38 in any suitable manner. Such chopping could be done in the farm yard to provide food for cattle or the like as it has been found that cattle will eat chopped material completely, whereas the cattle will do selective feeding, that is, eating only the choice parts and ignoring the balance of the feed, if the feed material is in an unchopped condition.

It should now be obvious that apparatus constructed in accordance with this invention accomplishes all the objects hereinbefore specified and affords all the advantages recited for such invention. And it should be understood that it is not intended to limit the invention either to its use for cutting forage and row crops and chopping same in particular or to the particular elea ments herein shown and described for purposes of illustration as various modifications Within the scope of the appended claims may occur to persons skilled in the art.

It is claimed and desired to secure by Letters Patent:

1. In a mobile forage harvester having a wheeled frame, a row crop cutting device carried at a forward portion of said frame, a transversely extending rotary chopping cylinder positioned in said harvester above and to the rear of said cutting device, transversely extending stalk feedingA rolls positioned in radially opposed relation to each other adjacent to and in front of said chopping cylinder and being substantially coextensive in length with said cylinder, said feeding rolls being adapted to feed stalks in a longitudinal direction opposite to the direction of travel of said harvester, a pair of gathering elements fixedly mounted on said frame and having side walls, respectively, at a predetermined transverse spacing from each other so as to form a narrow passage therebetween extending upwardly and rearwardly from said cutting device and terminating in proximity to said feeding rolls at a point forwardly opposite to one end of said chopping cylinder, a generally llongitudinally extending stalk supporting chute member carried by said frame and having a rearward end portion extending in proximity to said feeding rolls from said. upper end of said narrow passage to a point ping cylinder, and a cut stalk conveying mecha- 

